Minakshi Jha | Chemistry | Best Researcher Award

Dr. Minakshi Jha | Chemistry | Best Researcher Award

Homi Bhabha National Institute | India

Author profile

Scopus

Orcid

Google Scholar

Early Academic Pursuits

Dr. Minakshi Jha has demonstrated exceptional dedication to academic excellence from an early stage, culminating in her current position as a Post-doctoral Research Associate at Homi Bhabha National Institute (HBNI), Mumbai. Her academic journey began with a Bachelor's degree in Chemistry, followed by a Master's degree where she achieved first rank in Physical Chemistry. Subsequently, she pursued a Ph.D. in Chemistry from the University of Mumbai, further solidifying her expertise in the field.

Professional Endeavors

Dr. Jha's professional journey is marked by diverse experiences ranging from teaching to research. She has served as an Assistant Professor at Vivekanand Education Society's Institute of Technology, Mumbai, where she imparted knowledge and fostered the academic growth of students. Additionally, her stint as a PGT Chemistry teacher at Kendriya Vidyalaya Mankhurd reflects her commitment to education at various levels.

Contributions and Research Focus

Dr. Jha's research endeavors revolve around the synthesis and characterization of advanced functional nanomaterials with a sustainable, environmentally benign approach. Her major research interests include the design of rare earth-doped upconverting nanophosphors for diverse applications such as optical thermometry and phosphor-based white-light generation. Furthermore, she is deeply involved in the development of theranostic materials for applications in anti-cancer therapy, as well as the fabrication of photocatalysts for clean water technology and environmental applications.

Accolades and Recognition

Dr. Jha's contributions to the field of chemistry have been recognized through various awards and honors. Notably, she has received the "Best Paper Award" at a national conference on recent trends in science and technology and has been bestowed with the University 1st Rank Holder in M.Sc. Additionally, she has been awarded the prestigious University Grant Commission (UGC) Research Fellowship, highlighting her academic prowess and research acumen.

Impact and Influence

Through her extensive research and academic engagements, Dr. Jha has made a significant impact on various domains, including health, energy, sensing, security, environment, and commercial applications. Her innovative approaches to material synthesis and characterization have the potential to address critical challenges in these areas, contributing to the advancement of science and technology.

Legacy and Future Contributions

Dr. Minakshi Jha's legacy lies in her relentless pursuit of knowledge and her commitment to scientific exploration. With a vision to create a vibrant, knowledge-oriented environment conducive to academic excellence, she aims to inspire future generations of scientists and contribute her expertise towards nation-building. Her future contributions are poised to further enrich the fields of chemistry and materials science, driving innovation and sustainable development forward.

Notable Publications

β-NaBiF4:Yb3+,Er3+:Novel green synthesis, crystal structure, upconversion luminescence and optical thermometry 2024

Mechanical response of silver/polyvinyl alcohol thin film: From one-step and cyclic nanoindentation 2022 (5)

Novel sonochemical green approach for synthesis of highly crystalline and thermally stable barium sulphate nanoparticles using Azadirachta indica leaf extract 2019 (6)

Ultrasonic assisted green synthesis of Ag:CdO nanocubes and nanospheres using Citrus limon leaves for efficient degradation of organic dyes 2019 (47)

Green synthesis of zero valent colloidal nanosilver targeting A549 lung cancer cell: In vitro cytotoxicity 2018 (32)

 

 

Sanjun Fan | Chemistry | Best Researcher Award

Dr. Sanjun Fan | Chemistry | Best Researcher Award

The Ohio State University | United States

Author Profile

Scopus

Early Academic Pursuits

Sanjun Fan commenced his academic journey with a Bachelor of Chemistry at Heilongjiang University. He further pursued Master's degrees in Organic Chemistry at Guangzhou University and Analytical Chemistry at Auburn University. His academic journey culminated in a Ph.D. in Analytical Chemistry at the University of New South Wales.

Professional Endeavors

Fan has contributed significantly to academia, serving as a Graduate Research Assistant at various esteemed institutions worldwide. His roles include teaching, mentoring, and conducting research in Chemistry. He also held Postdoctoral Research Fellow positions at Shenzhen University and The Ohio State University.

Contributions and Research Focus

Fan's research interests encompass various areas of analytical chemistry, including bipolar electrochemistry, electrochemical sensors, and spectroscopic techniques. His doctoral work focused on controlling biomolecular binding events using potential pulsing, contributing to advancements in biosensing technologies.

Accolades and Recognition

Fan's dedication and excellence have been acknowledged through numerous awards and honors, such as the Dow Fellowship and Biosensors and Bioelectronics prize. He has actively participated in conferences, presenting his research findings and contributing to scientific discourse.

Impact and Influence

Through his teaching and research endeavors, Fan has made a tangible impact on the academic community, inspiring students and fellow researchers alike. His contributions to the field of analytical chemistry, particularly in biosensing and spectroscopy, have the potential to revolutionize diagnostics and molecular analysis.

Legacy and Future Contributions

Fan's legacy lies in his commitment to advancing analytical chemistry and fostering scientific innovation. His future contributions are anticipated to further propel the field, driving breakthroughs in biosensing technologies and surface-enhanced spectroscopy methodologies.

Notable Publications

Negatively Charging Nonprecious Metal Phosphides/Selenides via General Polyaniline Coating for Improved Alkaline H 2 Evolution 2023 (3)

Atomic Pt‐N4 Sites in Porous N‐Doped Nanocarbons for Enhanced On‐Site Chlorination Coupled with H2 Evolution in Acidic Water 2023 (7)

Non-heme Iron Single-Atom Nanozymes as Peroxidase Mimics for Tumor Catalytic Therapy 2023 (1)

Single-atom nanozymes: From bench to bedside 2022 (21)

Accurate Quantification and Imaging of Cellular Uptake Using Single-Particle Surface-Enhanced Raman Scattering 2023